Selective loss of NK cytotoxicity in antisense NK-TR1 rat LGL cell lines. Abrogation of antibody-independent tumor and virus-infected target cell killing.

We have shown that NK-TR1, a protein containing a cyclophilin-like domain, is associated with a receptor/triggering molecule on the surface of human large granular lymphocytes (1). In the present study, we have further defined the role of NK-TR1 in target cell recognition/killing by generating antisense NK-TR1 transfectants in the rat LGL cell line, RNK-16. Stable transfectants were identified by analyzing permeabilized cells with the anti-NK-TR1 mAb, 4F9. Transfectants with low levels of 4F9 staining showed drastically reduced levels of killing against three NK-susceptible target cell lines. Lytic activity against vaccinia virus-infected cell lines also was dramatically reduced. In contrast, transfected cells showing normal levels of NK-TR1 expression demonstrated normal killing of all target cells. The ability of all transfectants to form conjugates was identical to that observed with the wild-type RNK cell line. Lectin-dependent cytotoxicity, reverse ADCC via NKR-PI, and ADCC-mediated killing were comparable in both high or low NK-TR1 expressing clones, demonstrating that the lytic machinery was still intact. BLT-esterase activity, PF levels, and surface marker phenotype were not significantly affected. These results provide strong evidence that NK-TR1 is an essential element in a signaling pathway leading to MHC unrestricted killing of tumor and virus-infected cells.